Chikateru Nozaki

Induction of Acquired Factor IX Inhibitors in Cynomolgus Monkey (Macaca Fascicularis): A New Primate Model of Hemophilia B

Inherited hemophilia dog and other transient hemophilic animal models have been used for evaluation of hemostatic agents for use in treatment of hemophilia. We established the first nonhuman primate hemophilic model by immunizing cynomolgus monkeys with human FIX (hFIX) in adjuvants. FIX activities of all three hFIX-immunized monkeys decreased transiently to less than 10% in accordance with prolongation of activated partial thromboplastin time (APTT). Forty micrograms of human factor VIIa (hFVIIa) per kilogram body weight (that was reported to be clinically effective) was administered to the monkey with the highest inhibitor titer to evaluate its usefulness as a hemophilia inhibitor model. Results of thromboelastography (TEG) after the injection demonstrated that the hemostatic effect of FVIIa in this model would be similar to that in hemophiliacs with inhibitors. The antibodies purified from the monkeys plasma by hFIX-immobilized gel were composed of two types: Ca(2+)-dependent and -independent antibodies, with features of IgG(1) and IgG(4). Both types of antibodies reacted to cynomolgus FIX, and only Ca(2+)-dependent antibodies also expressed inhibitory activity against cynomolgus FIX. Immunoblotting analyses of Ca(2+)-dependent antibodies using hFIX and its derivatives suggested that they recognized the Ca(2+)-dependent conformation related to the gamma-carboxyglutamic acid (Gla) domain. Comparison of FIX cDNA from human, cynomolgus monkey, and other species, and the results of immunization of various animals (goats, beagle dogs, rabbits, and rats) with hFIX in adjuvants strongly suggested that the development of acquired FIX inhibitors in the monkeys might be due to high cross-reactivity of the antibodies to molecular mimic antigens, hFIX, and cynomolgus FIX.

High-yield production and characterization of biologically active recombinant aprotinin expressed in Saccharomyces cerevisiae

Aprotinin is a polypeptide composed of 58 amino acid residues and has a molecular weight of 6512Da. The 58 amino acid residues are arranged in a single polypeptide chain, which is cross-linked by three disulfide bridges and folded to form a pear-shaped molecule. To express recombinant aprotinin in Saccharomyces cerevisiae, a synthetic gene encoding aprotinin was constructed and fused in frame with the pre-sequence of the S. cerevisiae MATalpha1 gene at the cleavage site of signal peptidase. The expression of aprotinin in S. cerevisiae was carried out using the PRB1 promoter. Aprotinin was secreted as a biologically active protein at a concentration of 426 mg/L into high cell density fermentation medium of 70.9 g/L cell dry weight. The purification process consisted of only three major steps and provided consistent yields of recombinant aprotinin using gel filtration high-pressure liquid chromatographic (HPLC) with a purity level higher than 99% and was free of non-aprotinin-related impurities. The recombinant aprotinin had the same characteristics as bovine aprotinin in a number of analytical methods, including alpha2-plasmin inhibition assay, amino acid composition, N-terminal amino acid sequence determination, and mass spectrum analysis. With further optimization of the purification process and culture conditions for high-yield production by S. cerevisiae, this source of recombinant aprotinin may be a promising approach for the commercial manufacture of aprotinin for pharmaceutical use instead of bovine aprotinin.

Amyloid β peptides with an additional cysteine residue can enhance immunogenicity and reduce the amyloid β burden in an Alzheimer’s disease mouse model

For the development of a safe vaccine for Alzheimers disease (AD), we studied the immunogenicity of amyloid beta (Abeta) peptides without adjuvant. Addition of a cysteine residue (Cys) to Abeta peptides enhanced immunogenicity in mice compared to those without Cys. Vaccination with the Abeta-Cys peptides reduced Abeta deposits in AD model mice. From these results, the Abeta-Cys peptides, administered without adjuvant, are considered candidates for vaccine therapy for AD.

Influenza Virus M2e with Additional Cysteine Residues Shows Enhanced Immunogenicity and Protection Against Lethal Virus Challenge

The amino acid sequence of the extracellular domain of matrix protein 2 (M2e) is conserved among all subtypes of influenza A viruses. Therefore, the M2e peptide can be considered as a target antigen for the development of a universal influenza vaccine. We evaluated the effects of adding cysteine residues to a peptide of amino acids 2-24 of M2e. Mice immunized with some of these peptides containing one, two, three, four, or five extra cysteines displayed enhanced antibody titers to M2e. In addition, immunization with a peptide containing three extra cysteines, along with an aluminum adjuvant, protected mice more effectively against a lethal influenza virus challenge than the original M2e peptide. These results indicated that an M2e peptide containing additional cysteine residues could be a universal influenza vaccine candidate even without the addition of strong adjuvants.